The KEOPS complex, which is conserved across archaea and eukaryotes, is composed of four core subunits; Pcc1, Kae1, Bud32 and Cgi121. KEOPS is crucial for the fitness of all organisms examined. In humans, pathogenic mutations in KEOPS genes lead to Galloway–Mowat syndrome, an autosomal-recessive disease causing childhood lethality. Kae1 catalyzes the universal and essential tRNA modification N6-threonylcarbamoyl adenosine, but the precise roles of all other KEOPS subunits remain an enigma. Here we show using structure-guided studies that Cgi121 recruits tRNA to KEOPS by binding to its 3’ CCA tail. A composite model of KEOPS bound to tRNA reveals that all KEOPS subunits form an extended tRNA-binding surface that we have validated in vitro and in vivo to mediate the interaction with the tRNA substrate and its modification. These findings provide a framework for understanding the inner workings of KEOPS and delineate why all KEOPS subunits are essential.
Targeted protein
degradation (TPD) strategies exploit bivalent
small molecules to bridge substrate proteins to an E3 ubiquitin ligase
to induce substrate degradation. Few E3s have been explored as degradation
effectors due to a dearth of E3-binding small molecules. We show that
genetically induced recruitment to the GID4 subunit of the CTLH E3
complex induces protein degradation. An NMR-based fragment screen
followed by structure-guided analog elaboration identified two binders
of GID4, 16 and 67, with K
d values of 110 and 17 μM in vitro. A parallel DNA-encoded library (DEL) screen identified five binders
of GID4, the best of which, 88, had a K
d of 5.6 μM in vitro and an EC50 of 558 nM in cells with strong selectivity for GID4. X-ray
co-structure determination revealed the basis for GID4–small
molecule interactions. These results position GID4-CTLH as an E3 for
TPD and provide candidate scaffolds for high-affinity moieties that
bind GID4.
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